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NTIS 바로가기The Korean journal of legal medicine = 대한법의학회지, v.45 no.1, 2021년, pp.14 - 21
Kim, Jeongyong , Lee, Min Ho , Kim, Hyojeong , Lee, Ja Hyun , Nam, Youn-Hyoung , Kim, Hyo Sook , Yoon, Hyun Kyu , Seong, Ki Min , Kim, Eungsoo
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Costello, Elizabeth K., Lauber, Christian L., Hamady, Micah, Fierer, Noah, Gordon, Jeffrey I., Knight, Rob. Bacterial Community Variation in Human Body Habitats Across Space and Time. Science, vol.326, no.5960, 1694-1697.
Lehman, Donald C.. Forensic Microbiology. Clinical laboratory science : journal of the American Society for Medical Technology, vol.25, no.2, 114-119.
Pang, Benjamin C. M., Cheung, Bobbie K. K.. Applicability of Two Commercially Available Kits for Forensic Identification of Saliva Stains. Journal of forensic sciences, vol.53, no.5, 1117-1122.
Juusola, Jane, Ballantyne, Jack. Messenger RNA profiling: a prototype method to supplant conventional methods for body fluid identification. Forensic science international, vol.135, no.2, 85-96.
Lee, Hwan Young, Park, Myung Jin, Choi, Ajin, An, Ja Hyun, Yang, Woo Ick, Shin, Kyoung-Jin. Potential forensic application of DNA methylation profiling to body fluid identification. International journal of legal medicine, vol.126, no.1, 55-62.
Jung, Ju Yeon, Yoon, Hyun Kyu, An, Sanghyun, Lee, Jee Won, Ahn, Eu-Ree, Kim, Yeon-Ji, Park, Hyun-Chul, Lee, Kyungmyung, Hwang, Jung Ho, Lim, Si-Keun. Rapid oral bacteria detection based on real-time PCR for the forensic identification of saliva. Scientific reports, vol.8, 10852-.
Lee, H.Y., Jung, S.E., Oh, Y.N., Choi, A., Yang, W.I., Shin, K.J.. Epigenetic age signatures in the forensically relevant body fluid of semen: a preliminary study. Forensic science international. Genetics, vol.19, 28-34.
Mackay, Ian M., Arden, Katherine E., Nitsche, Andreas. Real-time PCR in virology. Nucleic acids research, vol.30, no.6, 1292-1305.
Hausmann, R., Schellmann, B.. Forensic value of the Lugol's staining method: further studies on glycogenated epithelium in the male urinary tract. International journal of legal medicine, vol.107, no.3, 147-151.
Rothwell, T.J., Harvey, K.J.. The Limitations of the Lugol's Iodine Staining Technique for the Identification of Vaginal Epithelial Cells. Journal : the Forensic Science Society, vol.18, no.3, 181-184.
Witkin, Steven S.. Bacterial flora of the female genital tract: function and immune regulation. Best practice & research. Clinical obstetrics & gynaecology, vol.21, no.3, 347-354.
Kim, Jeong Hyun, Yoo, Seung Min, Sohn, Yong Hak, Jin, Chan Hee, Yang, Yun Suk, Hwang, In Taek, Oh, Kwan Young. Predominant Lactobacillus species types of vaginal microbiota in pregnant Korean women: quantification of the five Lactobacillus species and two anaerobes. The journal of maternal-fetal & neonatal medicine : the official journal of the European Association of Perinatal Medicine, the Federation of Asia and Oceania Perinatal Societies, the International So, vol.30, no.19, 2329-2333.
You, Young‐Ah, Kwon, Eun Jin, Choi, Suk‐Joo, Hwang, Han‐Sung, Choi, Sae‐Kyung, Lee, Seung Mi, Kim, Young Ju. Vaginal microbiome profiles of pregnant women in Korea using a 16S metagenomics approach. American journal of reproductive immunology : AJRI, vol.82, no.1, e13124-.
El Aila, N.A., Tency, I., Saerens, B., De Backer, E., Cools, P., dos Santos Santiago, G.L., Verstraelen, H., Verhelst, R., Temmerman, M., Vaneechoutte, M.. Strong correspondence in bacterial loads between the vagina and rectum of pregnant women. Research in microbiology, vol.162, no.5, 506-513.
Wexler, Hannah M.. Bacteroides: the Good, the Bad, and the Nitty-Gritty. Clinical microbiology reviews, vol.20, no.4, 593-621.
Zitomersky, Naamah Levy, Coyne, Michael J., Comstock, Laurie E., Weiser, J. N.. Longitudinal Analysis of the Prevalence, Maintenance, and IgA Response to Species of the Order Bacteroidales in the Human Gut. Infection and immunity, vol.79, no.5, 2012-2020.
2010
2018
Bustin, Stephen A, Benes, Vladimir, Garson, Jeremy A, Hellemans, Jan, Huggett, Jim, Kubista, Mikael, Mueller, Reinhold, Nolan, Tania, Pfaffl, Michael W, Shipley, Gregory L, Vandesompele, Jo, Wittwer, Carl T. The MIQE Guidelines: Minimum Information for Publication of Quantitative Real-Time PCR Experiments. Clinical chemistry, vol.55, no.4, 611-622.
Ventura, Marco, Canchaya, Carlos, Zink, Ralf, Fitzgerald, Gerald F., van Sinderen, Douwe. Characterization of the groEL and groES Loci in Bifidobacterium breve UCC 2003: Genetic, Transcriptional, and Phylogenetic Analyses. Applied and environmental microbiology, vol.70, no.10, 6197-6209.
Lactobacillus species isolated from vaginal secretions of healthy and bacterial vaginosis-intermediate Mexican women: a prospective study Martinez-Pena 189 2013
Tachedjian, Gilda, Aldunate, Muriel, Bradshaw, Catronia S., Cone, Richard A.. The role of lactic acid production by probiotic Lactobacillus species in vaginal health. Research in microbiology, vol.168, no.9, 782-792.
Pavlova, S.I., Kilic, A.O., Kilic, S.S., So, J.-S., Nader-Macias, M.E., Simoes, J.A., Tao, L.. Genetic diversity of vaginal lactobacilli from women in different countries based on 16S rRNA gene sequences. Journal of applied microbiology, vol.92, no.3, 451-459.
Lee, Changsoo, Kim, Jaai, Shin, Seung Gu, Hwang, Seokhwan. Absolute and relative QPCR quantification of plasmid copy number in Escherichia coli. Journal of biotechnology, vol.123, no.3, 273-280.
Whelan, Joseph A, Russell, Nick B, Whelan, Michael A. A method for the absolute quantification of cDNA using real-time PCR. Journal of immunological methods, vol.278, no.1, 261-269.
Yun, James J., Heisler, Lawrence E., Hwang, Irene I. L., Wilkins, Olivia, Lau, Suzanne K., Hyrcza, Martin, Jayabalasingham, Bamini, Jin, Jing, McLaurin, JoAnne, Tsao, Ming-Sound, Der, Sandy D.. Genomic DNA functions as a universal external standard in quantitative real-time PCR. Nucleic acids research, vol.34, no.12, e85-e85.
De Vittori, E., Giampaoli, S., Barni, F., Baldi, M., Berti, A., Ripani, L., Romano Spica, V.. Improvement and automation of a real-time PCR assay for vaginal fluids. Forensic science international, vol.262, 179-182.
Fleming, Rachel I., Harbison, SallyAnn. The use of bacteria for the identification of vaginal secretions. Forensic science international. Genetics, vol.4, no.5, 311-315.
Giampaoli, S., Berti, A., Valeriani, F., Gianfranceschi, G., Piccolella, A., Buggiotti, L., Rapone, C., Valentini, A., Ripani, L., Romano Spica, V.. Molecular identification of vaginal fluid by microbial signature. Forensic science international. Genetics, vol.6, no.5, 559-564.
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